Nuclear Accidents: Chernobyl & Fukushima
Robert Peter Gale MD, PhD, DSc (hon), FACP
Radiation and Nuclear Accidents
Chernobyl Ukraine 1986Goiania Brazil 1987
Nieshvesh Belarus 1993Tokaimura Japan 1999Fukushima Japan 2011
Ionizing Radiations
Ionizing Radiations
Humans have always been exposed to ionizing radiations
There are many types and sources of ionizing radiations in our normal lives
There are substantial differences in how much radiation we are exposed to
without detectable health consequences
Ionizing Radiations
Humans have always been exposed to ionizing radiations
There are many types and sources of ionizing radiations in our normal lives
There are substantial differences in how much radiation we are exposed to
without detectable health consequences
Ionizing Radiations
Humans have always been exposed to ionizing radiations from diverse sourcesThere are many types and sources of ionizing radiations in our normal lives
There are substantial differences in how much radiation we are exposed to
without detectable health consequences
Radiation Doses
Dose: Gy (Joule/Kg) 1 Gy=100 rad
Effective Dose: Sv (Dose adjusted for biological effect) 1Sv=100 rem
Collective effective dose: ManSv (Effective dose X persons exposed)
Sources of Ionizing Radiations
CosmicTerrestrialFood/Drink
Other humansMedical procedures
Cosmic Radiations (mrem)
Altitude (m) Dose Rate
Sea level 31 Los Angeles
1,525 55 Denver
9,140 1900 Jetliner
15,240 8750 Concorde
24,340 12,200 U2 Spy plane
Sources of Ionizing Radiations
CosmicTerrestrialFood/Drink
Other humansMedical procedures
US Terrestrial RadiationDenver
NY
Sources of Ionizing Radiations
CosmicTerrestrialFood/Drink
Other humansMedical procedures
0.2 Bq/LRa U Th Rn
Sources of Ionizing Radiations
CosmicTerrestrialFood/Drink
Other humansMedical procedures
40K40K 14C14C
Sources of Ionizing Radiations
CosmicTerrestrialFood/Drink
Other humansMedical procedures
Sources of Ionizing Radiations
How much radiation are we normally exposed to?
How much radiation are we normally exposed to?
That depends!
Average Radiation Exposure
6.2 mSvNY
Average Radiation Exposure
6 mSv
Denver
NY
10 mSv
Average Radiation Exposure
6 mSv
0.1 mSvChest X-ray
Denver
NY
10 mSv
Average Radiation Exposure
6 mSv
0.1 mSvChest X-ray
CT scan
Denver
6 mSv
NY
10 mSv
What are the effects of exposure to ionizing radiations?
What are the effects of exposure to ionizing radiations?
Deterministic------------------------
Stochastic
What are the effects of exposure to ionizing radiations?
Deterministic------------------------
Stochastic
Deterministic Effects
SkinGastro-intestine
Bone marrowCNS/CV
Eyes
Timing of Radiation Effects
0 1 10 50 y
Deterministic
Dose vs Deterministic Effects
Dose
Risk
What are the effects of exposure to ionizing radiations?
Deterministic--------------------------------
Stochastic
Stochastic Effects
CancerBirth defects
Genetic disorders
Timing of Radiation Effects
0 1 10 50 y
Stochastic
Stochastic Effects
CancerBirth defects
Genetic disorders
ParadoxesThe default safety assumption is a linear no threshold relationship between exposure to ionizing radiations and cancer. This cannot
be proved.
Humans are exposed to a 5-10-fold difference in background radiation with no detectable
difference in cancer risk
Dose vs Cancer-Risk
1 2 3 Sv
Risk
Dose & Cancer-Risk
1 2 3 Sv
Risk
Dose & Cancer-Risk
1 2 3 Sv
Risk
Dose & Cancer-Risk
1 2 Sv
Risk
0.5
Dose & Cancer-Risk
2 3 Sv
Risk
1
Dose & Cancer-Risk
1 2 3 Sv
Risk
?
Dose vs Cancer-Risk
1 2 3 Sv
Risk
Cancer
Leukemia
Paradoxes
The default safety assumption is a linear, no threshold relationship between exposure to ionizing radiations and cancer. This cannot
be proved.
Humans are exposed to a 3-fold difference in background radiation with no detectable
difference in cancer risk
Background Dose vs Cancer-Risk (mSv)
103
Background Dose vs Cancer-Risk (mSv)
103
Cancer-Risk 95% CI
Nuclear Accidents: Chernobyl & Fukushima
Similarities and Differences
Similarities and Differences
Chernobyl NPS (1985)
Chernobyl NPS Accident (26 April 1986)
Chernobyl NPS (LandSat)
Fukushima
Fukushima (02/23/11)
Fukushima (03/28/11)
Fukushima
Similarities and Differences
Containment
Chernobyl
Chernobyl
Fukushima
Fukushima
Fukushima
Similarities and Differences
Radionuclide Release
Chernobyl Radionuclide Releases (PBq)
t1/2 Activity131I 8 d 1760
137Cs 30 y 85133Xe 5 d 650090Sr 29 y 10
239Pu 24 y 0.013
Chernobyl Radionuclide Releases (PBq)
t1/2 Activity131I 8 d 1760
137Cs 30 y 85133Xe 5 d 650090Sr 29 y 10
239Pu 24 y 0.013
Estimated Radionuclide Releases (PBq)
131I 137Cs
Chernobyl 1760 85
Estimated Radionuclide Releases (PBq)
131I 137Cs
Chernobyl 1760 85
Fukushima* 180 9
Estimated Radionuclide Releases (PBq)
131I 137Cs
Chernobyl 1760 85
Fukushima* 180 9
A-Bomb Tests 675,000 948
Environmental Long-Lived Radionuclides
Environmental Long-Lived Radionuclides
Temporal Delivery of Dose
50% in the 1st 3 months40% over the next 2 years
10% over the next 50 years
Similarities and Differences
Radionuclide Dispersion
Chernobyl Dispersion of Radioactivity
Day 2 Day 10
Fukushima
Fukushima
Fukushima
Fukushima
Evacuation
Decontamination
Decontamination
Similarities and Differences
Acute Radiation Syndrome
Acute Radiation Syndrome
Chernobyl 204Fukushima 0
Fukushima
Consequences of a NPS Accident
HealthEnvironmental
SocialEconomic
Energy Policy
Consequences of a NPS Accident
HealthEnvironmental
SocialEconomic
Energy Policy
Exposed Populations
Emergency personnelRecovery personnelEvacuated persons
Inhabitants contaminated landsBelarus//Russia/Ukraine
Distant countries
Exposed Populations
Emergency personnel 1,000Recovery personnel 530,000
Evacuated persons 115,000Inhabitants contaminated lands 6.4 MBelarus/Russia/Ukraine 98 MDistant countries 500 M
Evacuated
Contaminated lands
Belarus/Russia/Ukraine
Distant countries
117
31
9
Dose to Exposed Populations (mSv 1986-2005)
Recovery
1.3
0.3
Evacuated
Contaminated lands
Belarus/Russia/Ukraine
Distant countries
NY
117
31
9
Dose to Exposed Populations (mSv 1986-2005)
Recovery
1.3
0.3
124
Chernobyl Collective Effective Dose Estimates (1986-2005 man Sv)
Recovery 61,200
Evacuees 3,600
Contaminated 58,900
B/R/U 125,000
Distant 130,000
Chernobyl Collective Effective Dose Estimates (1986-2005 man Sv)
Recovery 61,200
Evacuees 3,600
Contaminated 58,900
B/R/U 125,000
Distant 130,000
Latency from Exposure to Cancers from A-Bombs (years)
Leukemia
Solid cancers
2-10
10-40
Latency from Exposure to Cancers from Chernobyl (y)
Leukemia
Solid cancers
2-10
10-40
25
Chernobyl-Related Cancer Estimates
1986-2005
What is the difference between an estimate and a
guess?
How tall is Bob Gale?
1 m
2 m
Is Bob Gale’s wife beautiful?
Compared to what?
How can I know, I’ve never seen her?
Chernobyl-Related Cancer Estimates
1986-2005
Thyroid Cancers in Children
Cancer Incidences (50 years)
5,000
42,000,000
0-15,000
Chernobyl Conclusions
Markedly increased thyroid cancersNo convincing increase in leukemia*
No convincing increase in other cancersNo birth defects
No genetic abnormalities
Estimated Cancer IncidencesFukushima (50 years)
500
20,000,000
0-1,500
Fukushima Estimates
Few, if any, thyroid cancersFew, if any, leukemias
Few, if any, other cancersNo birth defects
No genetic abnormalities
Energy-Related Deaths1986-2065
5,000
2,000,000
Chernobyl
Coal
16,000Global Warming
Wars 80,000
Collaborators
Alexander BaranovAngelina GuskovaAndrei Vorobiev
Georgi Selidovkin
Hideke KodoHakumi Oh
Shigetaka AsanoShigeru Chiba